Characterization of printed CZTSSe films for photovoltaic applications

“…Initial attempts to fabricate evaporated photovoltaic devices with Cu2ZnSnS4 thin-films led to promising results, with the AM1.5 efficiencies of up to 10.1% [18][19][20][21]. Because crystals with the kesterite structure include other compounds of the A I 2B II C IV X VI 4 family (with A = Cu; B = Zn, Fe; C = Sn, Ge and X = S, Se, extensive research revealing the optimum compound for photovoltaic applications, which can be used in such crystal structures, is needed.…”

Kesterite Inorganic-Organic Heterojunction for Solution Processable Solar Cells

“…Initial attempts to fabricate evaporated photovoltaic devices with Cu2ZnSnS4 thin-films led to promising results, with the AM1.5 efficiencies of up to 10.1% [18][19][20][21]. Because crystals with the kesterite structure include other compounds of the A I 2B II C IV X VI 4 family (with A = Cu; B = Zn, Fe; C = Sn, Ge and X = S, Se, extensive research revealing the optimum compound for photovoltaic applications, which can be used in such crystal structures, is needed.…”

Kesterite Inorganic-Organic Heterojunction for Solution Processable Solar Cells

“…Gives a high efficiency compare to the lower thickness recorded as 12.6% [4]. CZTSSe shows a value of absorption coefficient up to 1400 nm which allow to absorb almost the full range of solar radiation [5]. As a result, we can have a chance to reduce the manufacturing cost that will be our goal.…”

Modelling and Analysis of CdS/CZTSSe Based Thin Film Solar Cell